AI Robotic systems, C++, Design, Effective communication skills, Leadership Skill, Linux Operating system, Python Programming
As an engineering team at the forefront of robotics technology, we are seeking passionate students to work on research and development projects in the areas of computer vision, robot motion planning, optimization, security, and infrastructure. This program is for people who enjoy applying themselves to difficult problems in robotics and working side-by-side with top industry experts from around the world.
This program will help you rapidly expand your skills in robotics and computer science, and your mentors are having experience from top-ranked academic programs. You’ll also gain the satisfaction of solving real-world problems.
Main Themes
Considering your academic career and existing skills, we can customize the theme and goals of your internship. Below is a partial list of the topics we’ve identified and are now accepting applications for:
Development of a hand for grasping amorphous objects
・ Qualifications: 3D CAD experience
Robotic arm control
・ Qualifications: C++ experience, previous robotic control experience
Robotic arm palletizing stability
・ Qualifications: C++ experience, previous robotic control experience
Robotic arm motion planning
・ Qualifications: C++, Python experience
2D robotic pack evaluation
・ Qualifications: C++ experience, strong with algorithms
Requirements & Conditions
We can only consider students currently enrolled in Bachelors, Masters, or Ph.D. programs.
(If you wish to work after graduation, please apply for our permanent positions.)
Term/Hours
・ Full-Time Internship: minimum 3 months, 40 hours/week
・ Part-Time Internship: minimum 4 months, hours negotiable
Location
・ Mujin Robotics Center, 3-8-5 Tatsumi, Koto-ku Tokyo 135-0053
Benefits
・ Salary: determined based on skills and experiences
・ Paid commuting allowance
・ Free lunch and free snacks/drinks >> Check in Mujin blog
Mujin offers the complete robotic solution. Our core technology is the Mujin Controller, which manages any robotic application by controlling the movement of any robot arm via artificial intelligence and autonomous motion planning. This allows our end users to define the application and choose the best robot arm for the job.